中国东南沿海地区大气反常结构遥感初探

王宁; 郭立新; 赵振维; 丁宗华; 林乐科

doi:10.11834/jrs.20176331

遥感应用 | 浏览量 : 0 下载量: 58 CSCD: 0 更多指标

PDF
导出
分享
收藏
专辑

中国东南沿海地区大气反常结构遥感初探
Primary exploration of the algorithm of retrieving troposphere abnormal structure in the southeast coast of China
2017年21卷第6期页码：948-954
纸质出版日期： 2017-9-15 ，

录用日期： 2017-5-28
DOI： 10.11834/jrs.20176331

扫描看全文

王宁, 郭立新, 赵振维, 丁宗华, 林乐科. 2017. 中国东南沿海地区大气反常结构遥感初探. 遥感学报, 21(6): 948–954

Wang N, Guo L X, Zhao Z W, Ding Z H and Lin L K. 2017. Primary exploration of the algorithm of retrieving troposphere abnormal structure in the southeast coast of China. Journal of Remote Sensing, 21(6): 948–954
王宁, 郭立新, 赵振维, 丁宗华, 林乐科. 2017. 中国东南沿海地区大气反常结构遥感初探. 遥感学报, 21(6): 948–954 DOI： 10.11834/jrs.20176331.

Wang N, Guo L X, Zhao Z W, Ding Z H and Lin L K. 2017. Primary exploration of the algorithm of retrieving troposphere abnormal structure in the southeast coast of China. Journal of Remote Sensing, 21(6): 948–954 DOI： 10.11834/jrs.20176331.

摘要

对流层大气作为电波传播的主要媒介，其大气剖面参数直接影响无线电系统的作用距离和导航、定位精度，因此，研究大气剖面的微波遥感技术，尤其是大气反常结构，对分析评估无线电信息系统在复杂大气环境条件下工作性能和提供电波折射修正精度等具有重要的应用价值。中国东南沿海地区一直是研究的热点区域，本文选取青岛、射阳、厦门、海口4个站的气象探空仪观测数据，统计了这些地区大气波导的平均高度和厚度，对采用地基多通道微波辐射计的天顶和扫角亮温遥感其参数的算法进行了初步探索，提出了改进的组合神经网络算法来判别并遥感大气波导。同时，使用多年的探空数据对该算法进行了仿真验证，并用青岛气象站的实测数据验证了该算法的精度。结果表明该算法可用于遥感大气反常结构，并且与以往的算法相比更加实用、有效，可为雷达、通信、导航等系统设备提供环境信息保障。

Abstract

As the main medium of radio wave propagation

atmospheric profiles influence the operating range of radio systems and the accuracy of navigation and location systems. Therefore

the research on the techniques of microwave remote sensing for atmospheric profiles

especially their abnormal structure

is important for evaluating the performance of radio information systems and improving the accuracy of radio refraction correction in complex atmospheric environment. A microwave radiometer provides continuous thermodynamic (temperature

water vapor and moisture) soundings during clear and cloudy conditions. The radiometric profiler observes radiation intensity along with zenith infrared and surface meteorological measurements. Historical radiosonde and neural network or regression methods are used for profile retrieval. The southeast coastal area of China has always been a research hot spot. In this study

radiosonde data of Qingdao

Sheyang

Xiamen and Haikou were selected to compute the average height and thickness of the atmospheric waveguide. We carried out a preliminary exploration to retrieve algorithms. We put forward the combined neural network algorithm to discriminate and retrieve the atmospheric waveguide. Meanwhile

the feasibility of this method was demonstrated with the results simulated by historical data in Qingdao

Sheyang

Xiamen and Haikou and measured data in Qingdao. This method is used for remote sensing the atmospheric abnormal structure

and the radiometer can retrieve the atmospheric waveguide. In this study

a new idea is provided for the following atmosphere waveguide. However

improvement is still warranted

considering the lack of depth of the study. Two problems are discussed in this study. First

inversion accuracy is low because of the few samples of atmospheric waveguides extracted from the radiosonde data. Second

the type of atmospheric waveguide is not judged

and the model time is long because of the high resolution. We hope to overcome these problems by improving and adjusting the algorithm in the future. Radiometric profiling provides continuous temperature and humidity soundings up to 10 km height in clear and cloudy conditions and low-resolution cloud liquid soundings. The accuracy of the radiometric temperature and humidity soundings is equivalent to that of the radiosonde soundings. Ground-based multi-channel microwave radiometry has been proven to be a powerful tool for sensing atmospheric waveguide as compared with past methods. It can retrieve continuous atmospheric waveguide and provide environmental information for radar

communication

and navigation systems. The issue of atmospheric waveguide involves electromagnetic fields

radio meteorology

and numerical weather forecasts. Future work should use multiple devices and study atmospheric duct inversion in combination with numerical weather prediction methods to retrieve the waveguide and improve the accuracy of duct prediction.

关键词

大气波导学习矢量化(LVQ)网络算法径向基函数(RBF)地基多通道微波辐射计—大气辐射亮温

Keywords

atmospheric waveguidelearning vector quantization neural network algorithmradical basis functionground-based multi-channel microwave radiometer-brightness temperature

references

Ahn M H, Won H Y, Han D, Kim Y H and Ha J C. 2016. Characterization of downwelling radiance measured from a ground-based microwave radiometer using numerical weather prediction model data. Atmospheric Measurement Techniques, 9(1): 281–293

Araki K, Murakami M, Ishimoto H and Tajiri T. 2015. Ground-based microwave radiometer variational analysis during no-rain and rain conditions. SOLA, 11: 108–112

Bean B R and Dutton E J. 1968. Radio Meteorology. New York: Dover Publication Inc: 7-8, 132-134

成印河. 2009. 海上低空大气波导的遥感反演及数值模拟研究. 青岛: 中国科学院海洋研究所: 320-368

Cheng Y H. 2009. A Study on Atmospheric Ducts over the Sea Retrieval with AMSR-E Satellite Data and Its Numerical Simulation. Qingdao: The Institute of Oceanology, Chinese Academy of Sciences: 320-368

Cossu F, Hocke K and Mätzler C. 2015. A 10-year cloud fraction climatology of liquid water clouds over Bern observed by a ground-based microwave radiometer. Remote Sensing, 7(6): 7768–7784

哈斯巴干. 2003. 神经网络及其组合算法的遥感数据分类研究. 北京: 中国科学院研究生院: 212-249

Hasi B. 2003. The research on the Neural Network Algorithm and Its Combination Usages in Remote Sensing Data Classifications. Beijing: Graduate University of Chinese Academy of Sciences: 212-249

李欣欣, 张立新, 蒋玲梅, 赵少杰, 赵天杰. 2011. 被动微波辐射特征地形效应模拟与实验. 遥感学报, 15(1): 100–110

Li X X, Zhang L X, Jiang L M, Zhao S J and Zhao T J. 2011. Simulation and measurement of relief effects on passive microwave radiation. Journal of Remote Sensing, 15(1): 100–110 (

刘成国. 2003. 蒸发波导环境特性和传播特性及其应用研究. 西安: 西安电子科技大学: 268-330

Liu C G. 2003. Research on Evaporation Duct Propagation and Its Applications. Xi’an: Xidian University: 268-330

刘锦丽, 吕达仁, 张凌, 段树. 2003. 降水云中液水含量的空基遥感. 遥感学报, 7(3): 227–232

Liu J L, Lv D R, Zhang L and Duan S. 2003. Space-borne remote sensing on liquid water content of precipitating cloud. Journal of Remote Sensing, 7(3): 227–232 (

Rambabu S, Pillai J S, Agarwal A and Pandithurai G. 2014. Evaluation of brightness temperature from a forward model of ground-based microwave radiometer. Journal of Earth System Science, 123(4): 641–650

Ramesh K, Kesarkar A P, Bhate J, Venkat Ratnam M and Jayaraman A. 2015. Adaptive neuro-fuzzy inference system for temperature and humidity profile retrieval from microwave radiometer observations. Atmospheric Measurement Techniques, 8(1): 369–384

王波, 吴振森, 赵振维, 王红光. 2010. 雷达杂波反演低空大气折射率剖面的改进算法. 系统工程与电子技术, 32(8): 1652–1656

Wang B, Wu Z S, Zhao Z W and Wang H G. 2010. Improved method to retrieve low altitude atmospheric refractivity profiles from radar clutter. Systems Engineering and Electronics, 32(8): 1652–1656 (

王波. 2011. 基于雷达杂波和GNSS的大气波导反演方法与实验. 西安: 西安电子科技大学: 110-265

Wang B. 2011. Method and Experiment of Atmospheric Ducts Estimation Using Radar Clutter and GNSS. Xi’an: Xidian University: 110-265

王蕊, 严卫, 史顺文, 陆文. 2015. 全极化微波辐射计对环境参数敏感性分析. 遥感学报, 19(3): 375–390

Wang R, Yan W, Shi S W and Lu W. 2015. Environmental parameter sensitivity analysis for polarimetric microwave radiometer. Journal of Remote Sensing, 19(3): 375–390 (

文章被引用时，请邮件提醒。

提交

暂无数据